Thrust II - PV System Monitoring Deliverables Promised vs. Accomplishments

1. Thrust II - PV System Monitoring Deliverables Promised vs. Accomplishments Updated 4/9/2012 By Alex Cronin

2. PV System Monitoring • System Monitoring consists of: • Utility grade power meter reports Watt-hour increments of ac-energy yield • New AC-power monitoring circuit boards installed. • New DC power monitoring by improved shunt resistors • Module temperatures are monitored • Measurements every 1-second are logged by • NewLabJackhardware & LabView code. • New Irradiance sensors GHI, POA, DNI • Twenty four copies of hardware designed, assembled, programmed, and installed. • Data sent every 5 minutes to an SQL database at the UofA. • reports VdcIdcVacIacphase angle, environmental conditions • Data aredistributed on-line at www.UAPV.orgine • New Projects: • IV-curves for studying degradation& forecasting • Forecasting Camera – and cloud tracking algorithm • Distributed generation data • New PV test yards: Rosemont, UASTP, Biosphere2, All of Tucson Updated 4/9/2012 9 new slides show these 4 new projects

3. IV Curves from 6-yr old modules New Project 2012 8 Sanyo Modules HIP-G751BA2 Pmax = 148 W in the field Nameplate PSTC = 167 W 9 Sharp modules NEQ5E2U Pmax = 96 to 147 W in field Nameplate PSTC = 165 W Nameplate PSTC = 45 W Shading From Overhead cables Shade Effects 16 CIGS modules Pmax=15 to 32 W in field

4. Fast Transient Studies Project started 2011 AC power has 80% dropouts in 5 seconds. DC current (not V) fluctuates. 10/24/2011, Cronin gave a seminar at the ACC on “How much Energy Storage will we need?” using data on fluctuations. Motivates better forecasting.

5. Forecasting Cloud Events New Project 2012 GHI forecast (-30 hrs) DNI forecast (-30 hrs) Satellite image (0 hrs) 30 hour in advance WRF forecasts are impressive over large scales. But validation with PV data shows a need for better cloud forecasts

6. Forecasting Cloud Events New Project 2012 Cloud camera frame and video analysis to estimate cloud velocities. Cloud arrival time can be predicted 10 minutes in advance. This provides an early warning for power plant outages.

7. Distributed Generation Data New Project 2012 Petra modules @ azimuths PV data from 150 rooftops

8. Forecasts based on DG New Project 2012

9. Rosemont Copper Solar Proving Ground started in 2011 Site E Site C Site B Site A Site D

10. Rosemont Copper Solar Proving Ground started in 2011 Site A: Parsons Electric • 40 Energy Innovations Sunflower modules • 2-axis tracking, high concentrating PV system • 10.8kW rated dc power • Inverter purposely undersized Site B: EmpireCAT • 84 Kyocera KD235GX-LFB modules • 1-axis tracking, crystalline PV system • 19.7kW rated dc power Site C: Solar Gain • 336 QS Solar modules • Fixed tilt, amorphous-Si PV • 20.7kw rated dc power Site D: Solar Gain • 70 GSE Power Flex BIPV modules • Fixed geomembrane, Copper Indium Gallium diSelenide (CIGS) PV • 17.3kw rated dc power • Some PV not well adhered to membrane Site E: Solon • 72 Solon Black 280/09 modules • Fixed tilt, crystalline silicon PV • 19.4kw rated dc power • Inverter purposely undersized • Early evening shading noticed • System oriented West of South

11. New slide 2012 More Solar Test Yards UA tech park UA Biosphere2

12. TEP PV test yard, Tucson AZ Slide from 2011 22 grid-tied PV systems studied Tours for over 2000 people

13. Slide from 2011 New Technologies we are Field-Testing Novel Thin Film BIPV deployments High Concentration (1000x) PV Holographic PV concentrators

14. Example Data Slide from 2011 AC Output every minute shown for 2 days: Data on-line at: www.UAPV.org

15. Example Historical Data Slide from 2011 Daily output from a 1.5 kW PV system Average Yield = 5.3 h/day = 1935 kwh/kw/yr

16. Thrust II – Participants at UA Updated 4/9/2012 Principal Investigators:Alex Cronin, Ray Kostuk Students:AdriaBrooks, Tucker Bundgard, Alex Hickey, Daniel Cormode, Deanna Lewis, Nick Davidson, James Greenberg, Sarah Jones, Ryan Price, Vincent Lonij, Sean Osbourne, Steve Pulver, Michael St. Germaine, Anna Woschuitz, NiketThakkar, Jose Castro, Derek Zhang, Emily Kopp, Patty Hidalgo-Gonzalez (20 total) Collaborators: Tucson Electric Power (TEP), AZRISE, Biosphere 2, SOLON Corporation, NREL, University of Arizona Graduate College, Science Foundation Arizona, NASA Space Grant Consortium, Global Solar, Prism Solar Technologies, Rosemont Copper, Semprius Inc., Rehnu inc., Green Volts, Freeport MacMoRan, Skyline Inc., SunPower, GreenVoltsInc, Amonix, Fotowatio (FRV), Technicians for Sustainability (TFS) (21 total)

17. Thrust II New publications in 2012 Updated 4/9/2012 • V.T. Jayadevan, J. Rodriguez, V.P.A.Lonij, and A.D. Cronin, “Forecasting solar power intermittency using ground-based cloud imaging,” 7-pg. manuscript accepted for publication in the proceedings of American Solar Energy Society (ASES) meeting (2012) • V.P.A. Lonij, A.E. Brooks, J. Greenberg, S. Orsburn, A.D. Cronin, and G. Torres, “Field performance measurements of new and traditional PV technologies” 8-pg. manuscript accepted for publication in the proceedings of American Solar Energy Society (ASES) meeting (2012) • A.E. Brooks, V.P.A. Lonij, A.D. Cronin, R.K.Kostuk, J.M. Russo, D.Zhang, S.Vorndran, “One year of field studies of holographic planar concentrators at the Tucson Electric Power solar test yard” 8-pg. manuscript accepted for publication in the proceedings of American Solar Energy Society (ASES) meeting (2012) • A.E. Brooks, N. Allen, V.P Lonij, and A.D. Cronin, “Evaluation of four geomembrane mounted PV systems for land reclamation in southern Arizona,” manuscript accepted for publication in the proceedings of IEEE Photovoltaics Specialists Conference (PVSC) (2012) • V.P. Lonij, V.T. Jayadevan, A.E. Brooks, K. Koch, M. Leuthold, and A.D. Cronin, “Improving forecasts of PV power output using real-time measurements of PV output of 100 residential PV installs,” 3-pg. manuscript accepted for publication in the proceedings of IEEE Photovoltaics Specialists Conference (PVSC) (2012) • E.S. Kopp, P.L. Hidalgo-Gonzalez, A.E. Brooks, V.P.Lonij, and A.D. Cronin, “I-V curves from 300 modules deployed over 5-years in Tucson,” 3-pg manuscript accepted for publication in the proceedings of IEEE Photovoltaics Specialists Conference(PVSC) (2012) • V.P.Lonij, A.E.Brooks, K. Koch, and A.D. Cronin, “Analysis of 100 rooftop PV systems in the Tucson, AZ area,” 3-pg manuscript accepted for publication in the proceedings of IEEE Photovoltaics Specialists Conference (PVSC) (2012) • J.Russo, D. Zhang, M. Gordon, S. Vorndran, J. Castillo, A. Brooks, V. Lonij, A. Cronin, and R.Kostuk, “Characterization of diffuse anisotropic illumination effects to the output of bifacial and holographic planar concentrating photovoltaic panel configurations,” 3-pg manuscript submitted for publication in the proceedings of IEEE Photovoltaics Specialists Conference (PVSC) (2012) • P.L. Hidalgo-Gonzalez, A.E. Brooks, E.S.Kopp, V.P.Lonij, and A.D.Cronin, “String-level (Kw-scale) IV curves from different types of PV modules under partial shade,” 3-pg manuscript accepted for publication in the proceedings of IEEE Photovoltaics Specialists Conference (PVSC) (2012) • Plus: 4 Progress reports to affiliates, 2 new NSF proposals, 6 new WEES (UA TRIF) Proposals

18. Thrust II publications in 2010-2011 Slide from 2011 • N.Thakkar, A. Cronin, D. Cormode, V. Lonij, “A Simple Nonlinear Model for the Effect of Partial Shade”, 35th IEEE Photovoltaics Specialists • Conference, Honolulu, HI 2010. • S. Pulver, D. Cormode, A. Cronin, D. Jordan, S. Kurtz, R. Smith, “Measuring Degradation Rates Without Irradiance Data”, 35th IEEE Photovoltaics • Specialists Conference, Honolulu, HI (2010). • D. Zhang, J. Castro, and R. K. Kostuk, ``One-Axis Tracking Holographic Planar Concentrator Systems,’’ submitted to Applied Optics November • 2010. • J. M. Castro, D. Zhang, B. Myer, and R. K. Kostuk, “Energy collection efficiency of holographic planar concentrators,” Appl. Opt., vol. 49, pp. 858- • 870, Feb. 2010. • R. K. Kostuk, J. Castro, and D. Zhang, ``Energy collection efficiency of low concentration holographic planar concentrators,’’ SPIE Optics + • Photonics, paper7769-01, San Diego, CA. Aug. 1-5, 2010 (Keynote Presentation). • J. M. Castro, D. Zhang, and R. K. Kostuk, ``Planar holographic solar concentrators for low and medium ratio concentration systems,’’ OSA Optics • and Photonics Conference, Optics for Solar Energy, paper STuB3, 7-9 June 2010. • D. Zhang, J. M. Castro, and R. K. Kostuk, ``Commercial CIGS solar cells for concentrator applications,’’ OSA Optics and Photonics Conference, • Optics for Solar Energy, paper SWD2, 7-9 June 2010. • J. E. Castillo, J. M. Russo, R. K. Kostuk. G. A. Rosenberg, “Thermal effects of the extended holographic regions for holographic planar • concentrator”, Journal of Photonics for Energy, accepted (2011) • A. Cronin, “Memo to TEP: RE: New deratingchart for non-tracking PV systems” internal document 2011 Cronin, • V.Lonij, and A.Brooks “Performance Reviews From The Tucson Electric Power Solar Test Yard” Submitted to the IEEE PVSC 2011 • A. Cronin, J. E. Castillo, P. Hauser, G. Rosenberg, R. Kumar, R.K. Kostuk, D. Zhang, J. M. Russo, S. Vorndran, V. Lonij, A. Brooks, “Holographic • CPV Field Tests At The Tucson Electric Power Solar Test Yard” submitted to the IEEE PVSC 2011 • K. Ghosal, S. Burroughs, D. Lilly J. Gabriel, A. Cronin, A. Brooks, V. Lonji, P. Krause, M. Fiedler, C. Lindsey And S. Metzger “ On sun • Performance Of A Novel Microcell Based Hcpv System Based In Tuscon: Comparison With Conventional Systems” submitted to IEEE PVSC 2011

19. Thrust II Benefits to Arizona Updated 4/9/2012 PEPER Thrust II is helping Arizona - We work with companies to create products and jobs Company No. of Student-semestersJobs Created Global Solar (Tucson based CIGS mfgr) 6 Prism Solar (Tucson based CPV mgfr) 20 5 Semprius Inc (Demonstration CPV unit at TEP) 6 1 Technicians for Sustainability (Tucson PV installer) 3 NREL 5 1 Tucson Electric Power 32 Rosemont Copper 4 1 Biosphere 2 16 1 SunPower4 Totals: 96 9 {Number of student-semesters directly supported by PEPER: 5} Funding also comes from companies above and: NSF, UofA, AZRISE, NASA